This invention relates to vehicle doors, and more particularly, to a single-axis door hinge and methods for gull-wing operation.
It is well known in motor vehicles to have a front door opening and a rear door opening which are respectively closed by separate front and rear doors. Conventional car doors are typically hinged at the front-facing edge of the door and allow the door to swing outward from the body of the car.
The term gull-wing door is used to describe automobile doors which are hinged at the roof. They are so named because, when opened, the doors evoke the image of a seagull's wings. The most well-known examples of road-cars with gull-wing doors are the Mercedes-Benz 300SL from the 1950s, the Bricklin SV-1 from the 1970s and the De Lorean DMC-12 from the 1980s.
Despite the common misconception that the gull-wing doors are mere stylistic affectations, the design is a very practical one. The advantage is that when properly designed and counterbalanced (e.g. the De Lorean), they require little side-clearance to open (about 27.5 cm, or 1 inches in the De Lorean) and allow much better entrance/egress than conventional doors. This is especially important for vehicles like the De Lorean whose width would make conventional doors awkward to use when the car is in a conventional urban parking space.
Gull-wing doors have a somewhat questionable reputation because of early examples like the Mercedes and the Bricklin. The Mercedes 300 SL used the door design to allow an unusual chassis design which required a very high door sill and forced the doors to be smaller than would otherwise have been optimal. The Bricklin was a more conventional sized door but the actuation system was problematic in day-to-day use and led to unreliable operation. In addition, there was some concern that in making the door as light as possible, it couldn't provide adequate protection in side-impact accidents.
The De Lorean addressed these problems by using a solid-steel torsion bar to counterbalance a full-sized door and then used simple pneumatic struts similar to those found in hatchback cars to open the doors and dampen the movement of the doors.
For the most part, gull-wing door operation has been available only on expensive luxury performance automobiles and automobiles assembled from a kit by the consumer. These vehicles have door and door jam configurations, overly-complex hinge mechanisms, and latching mechanisms specifically designed into the automobile to permit the door to open vertically.
It would, therefore, be highly desirable to have components and assemblies that provide automobile manufacturers and aftermarket enthusiasts the ability to incorporate gull-wing door operation in currently designed automobiles without major modification to the automobile body or door structures.
The present invention provides a new and improved gull-wing door hinge and the mechanisms to retrofit conventional doors for gull-wing door operation.
In the following detailed description, reference is made to the accompanying drawings which form a part hereof wherein like numerals designate like parts throughout, and in which is shown by way of illustration specific embodiments in which the invention may be practiced. It is to be understood that other embodiments may be utilized and structural or logical changes may be made without departing from the scope of the present invention. Therefore, the following detailed description is not to be taken in a limiting sense, and the scope of the present invention is defined by the appended claims and their equivalents.
Referring to
A door 30 for closing the door openings 12, 14 includes a door upper edge 32 and a door lower edge 34. The door upper edge 32 is hinged to the roof header 22 at one or more hinges 50. The hinge 50 suitable for the particular purpose and in accordance with the present invention is described below.
Referring to the door 30 and the front door opening 12, a striker 28a is mounted on the door rear edge 38 and may be the stock striker on the retrofitted automobile or a particular striker suitable for the particular purpose. A door latch 26a is mounted on the middle pillar 18 facing the front opening 12 and may be the stock door latch on the retrofitted automobile or a particular door latch suitable for the particular purpose. The striker 28a receives the door latch 26a when the door 30 is in the closed position to latch and secure the door 30 in the closed position.
Similarly, a door latch 26b may be provided on the front pillar 16 facing the front opening 12 to receive a striker 28b provided on the door front edge 36. The door latch 26b provided on the front pillar 16 may be used singularly, or in combination, with a second door latch 26a provided on the middle pillar 18 as described above.
Similarly, a striker 28 and door latch 26 may be provided for the rear door and door opening as is described above. It is appreciated that the striker 28 and the door latch 26 may be alternatively coupled in switched arrangement to the respective door and door pillar so as to provide substantially the same operational characteristics of latching and securing the door 30 in the closed position.
The door 30 is moved from the closed position to the open position by actuating the door latch 26b to release the striker 28b. The door lower edge 34 is pushed outwardly via a handle (not shown). In an embodiment in accordance with the present invention, the opening movement of the door 30 is assisted by a linear actuator, such as, but not limited to, a telescoping strut 40 which is pivotally coupled to a suitable structure, shown in
Other linear actuators are appreciated. In an embodiment, the linear actuator is electrically driven so as to provide a power-driven operation at a touch of a button. Apparatus that provides the function of the linear actuator includes, but is not limited to, a gas strut, a pneumatic piston, a hydraulic piston, an electrically-driven linear actuator, a spring-loaded telescoping hinge, and an electromagnetic linear actuator.
It is understood that embodiments of the present invention provided above are suitable for automobiles having only two doors as shown in
Various types of hinges may be used to couple the door to the roof header, but in particular, a hidden hinge as described in accordance with the present invention is particularly suited for the purpose. The hinge of the present invention is partly contained within the thickness of the door and partly within the thickness of the roof header. The hinge comprises two fastening elements adapted to couple the hinge respectively to the door and to the roof header; linkages, each of which is connected to the two fastening elements with their first extremity hinged on a fixed pivot pin of one of the fastening elements and with the other extremity engaged in a sliding guide borne by the other fastening element; and a pivot pin, interposed at the extremities of the linkages, which connects the linkages in mutually pivoting fashion being able to move, remaining parallel to itself, in the opening and closing motion of the door. The hinge further comprises a maximum opening controlling means for controlling the extent of rotation of the hinge.
In practice, the hinge allows for the door to be opened at a maximum angle alpha. of substantially 180 degrees, the maximum extent of rotation controlled by the maximum opening controlling means. Depending on the installation, the hinge is controlled to open less than 180 degrees. In one embodiment, the maximum opening controlling means is a non-adjustable feature of the hinge. In other embodiments, the maximum opening controlling means is user adjustable providing one of a range of opening angles suitable for a particular purpose.
Each of the bodies 53, 55 is internally provided with a fixed pivot pin 62 and with a sliding guide 64. The pivot pin 62 is oriented parallel to a first direction X shown in
Each linkage 56, 58 is coupled to both fastening elements 52, 54. More in particular, a first extremity 57 of each linkage 56, 58 is hinged on the fixed pivot pin 62 of one of the fastening elements 52, 54, and the second extremity 59, which is provided with a shoe 66, is engaged in the sliding guide 64 of the other fastening element 52, 54.
The two linkages 56, 58 are mutually connected in pivoting fashion by a joint 68 situated between the related extremities 57, 59.
The linkages 56, 58 generally have elongated, globally curvilinear shapes, substantially similar in design and dimensions, devised to allow, when installed on a vehicle as shown in
More specifically, defining as a first linkage portion 63 that part of the linkages 56, 58 that is situated between the first extremity 57 and the joint 68 and as a second linkage portion 65 that part that is situated between the joint 68 and the second extremity 59, wherein the two linkages 56, 58 have mutually the same lengths, both in correspondence with their first linkage portions 63, and in correspondence with their second linkage portions 65.
The hinge 50 is advantageously constructed in such a way as to be also adjustable in range of rotation according to the spatial direction .alpha. and upon the activation of related adjustment means 70.
Referring to
In the above embodiments, the adjustment means 70 comprises a set screw 72. It is understood and appreciated that other elements providing similar function can be used to control the range of motion of the hinge 50, that is, adjustable in range of rotation according to the spatial direction .alpha.. Any element suitable for engagement of the shoe 66 that is slidingly engaged with the sliding guide 64 is appreciated so as to limit the maximum extent of translation of the shoe 66 within the sliding guide 64 controlling the angle .alpha. in which the hinge 50 opens and/or closes. Suitable elements include, but not limited to, pins, posts, and detent means, whether user adjustable or not.
Referring again to
Thus, it is seen that the embodiments provided above provide a gull-wing-type door operation by which the door extends above the vehicle body.
Although specific embodiments have been illustrated and described herein for purposes of description of the preferred embodiment, it will be appreciated by those of ordinary skill in the art that a wide variety of alternate and/or equivalent implementations calculated to achieve the same purposes may be substituted for the specific embodiment shown and described without departing from the scope of the present invention. Those with skill in the art will readily appreciate that the present invention may be implemented in a very wide variety of embodiments. This application is intended to cover any adaptations or variations of the embodiments discussed herein. Therefore, it is manifestly intended that this invention be limited only by the claims and the equivalents thereof.
Number | Date | Country | |
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60803666 | Jun 2006 | US |